EMISSION CONTROL SYSTEM

FUNCTION OF MAIN COMPONENTS

The main components of the 2ZR-FXE emission control system are as follows:

Component	Function
TWC	Oxidizes CO and HC in the exhaust gas and deoxidizes NOx at the same time, to purify them into CO₂, H₂O and N₂.
Oxygen Sensor	Detects the oxygen concentration in the exhaust emission by measuring the electromotive force which is generated in the sensor itself.
Air Fuel Ratio Sensor	As with the oxygen sensor, this sensor detects the oxygen concentration in the exhaust gas. However, it detects the oxygen concentration in the exhaust gas linearly.
E. F. I. Vacuum Sensor Assembly	Uses built-in semiconductors to detect the intake manifold pressure.
EGR Valve Assembly	Operates when receiving signals from the ECM, regulating the EGR volume.
EGR Cooler	Cools the exhaust gas temperature to improve the EGR efficiency.
PCV Valve	Opens and closes using vacuum generated in the intake manifold and controls the flow rate of the blowby gas.
Charcoal Canister	Contains activated charcoal to absorb the fuel vapors that are created in the fuel tank assembly.
Purge VSV	Opens in accordance with the signals from the ECM when the system is purging, in order to send the fuel vapor that was absorbed by the charcoal canister into the intake manifold.
ECM	Controls the volume of fuel injected, with corrections based primarily on the signal from the air fuel ratio sensor, and minor corrections based on the signal from the oxygen sensor. This control optimizes the air fuel ratio. Regulates the EGR volume in accordance with the various sensor signals. Controls the purge VSV in accordance with the signals from various sensors, in order to achieve a purge volume that suits the driving conditions.

SYSTEM CONTROL

EGR Control
1. For the EGR system, a regulated amount of inert gas is allowed to flow into the intake passage, reducing the peak temperature in the engine combustion chamber.
2. By sensing the engine driving conditions and actual amount of the EGR valve opening, the ECM operates the EGR valve and throttle control motor, to regulate the amount of exhaust gas that is recirculated.

Blowby Gas Ventilation System

By introducing blowby gas that has a large amount of HC into the intake manifold for combustion, the system enhances the emission performance. The amount of airflow through the crankcase (blowby gas introduction volume) is controlled according to the engine operating conditions. This prevents the excessive consumption of engine oil, and is a factor in idle speed control.
An oil separator is provided in the blowby gas passage inside the cylinder block sub-assembly. This separates the engine oil from the blowby gas in order to reduce oil degradation and reduce the amount of engine oil consumed.
The Positive Crankcase Ventilation (PCV) valve passage returns the blowby gas into the area after the throttle valve in accordance with the intake manifold vacuum.
When engine load is low, the intake manifold vacuum draws gases from the crankcase via the PCV valve, oil separator and hose. Fresh air is supplied to the crankcase to replace the gases drawn in through the PCV valve. The passage from the area before the throttle to the cylinder head cover supplies this fresh air to the crankcase.

When engine load is high, some of the gases in the crankcase (including blowby gas) are supplied to the intake manifold from the crankcase via the PCV valve, oil separator and hose, and the remaining gases are transferred via the passage from the cylinder head cover to the area before the throttle.

*1	Cylinder Head Cover Sub-assembly	*2	Cylinder Block Sub-assembly
*3	Oil Separator	*4	Oil Separator Cover (No. 1 Ventilation Case)
*5	PCV Valve	-	-
*a	To Air Cleaner Hose	*b	To Intake Manifold

*1	No. 2 Ventilation Hose	*2	Air Cleaner Case
*3	Throttle Body Assembly	*4	No. 1 Ventilation Hose
*5	PCV Valve	*6	Crankcase
*a	Fresh Air	*b	Blowby Gas